barrier/lib/arch/IArchNetwork.h
crs e9cc0b434e Moved CPrimaryScreen and CSecondaryScreen to the lib/synergy
and the platform specific implementations to lib/platform.
Added an lib/arch method to query the platform's native wide
character encoding and changed CUnicode to use it.  All
platform dependent code is now in lib/arch, lib/platform,
and the programs under cmd.  Also added more documentation.
2003-01-05 21:48:54 +00:00

279 lines
7.8 KiB
C++

/*
* synergy -- mouse and keyboard sharing utility
* Copyright (C) 2002 Chris Schoeneman
*
* This package is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* found in the file COPYING that should have accompanied this file.
*
* This package is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#ifndef IARCHNETWORK_H
#define IARCHNETWORK_H
#include "IInterface.h"
#include "stdstring.h"
/*!
\class CArchSocketImpl
\brief Internal socket data.
An architecture dependent type holding the necessary data for a socket.
*/
class CArchSocketImpl;
/*!
\var CArchSocket
\brief Opaque socket type.
An opaque type representing a socket.
*/
typedef CArchSocketImpl* CArchSocket;
/*!
\class CArchNetAddressImpl
\brief Internal network address data.
An architecture dependent type holding the necessary data for a network
address.
*/
class CArchNetAddressImpl;
/*!
\var CArchNetAddress
\brief Opaque network address type.
An opaque type representing a network address.
*/
typedef CArchNetAddressImpl* CArchNetAddress;
//! Interface for architecture dependent networking
/*!
This interface defines the networking operations required by
synergy. Each architecture must implement this interface.
*/
class IArchNetwork : public IInterface {
public:
//! Supported address families
enum EAddressFamily {
kUNKNOWN,
kINET,
};
//! Supported socket types
enum ESocketType {
kDGRAM,
kSTREAM
};
//! Events for \c poll()
/*!
Events for \c poll() are bitmasks and can be combined using the
bitwise operators.
*/
enum {
kPOLLIN = 1, //!< Socket is readable
kPOLLOUT = 2, //!< Socket is writable
kPOLLERR = 4, //!< The socket is in an error state
kPOLLNVAL = 8 //!< The socket is invalid
};
//! A socket query for \c poll()
class CPollEntry {
public:
//! The socket to query
CArchSocket m_socket;
//! The events to query for
/*!
The events to query for can be any combination of kPOLLIN and
kPOLLOUT.
*/
unsigned short m_events;
//! The result events
unsigned short m_revents;
};
//! @name manipulators
//@{
//! Create a new socket
/*!
The socket is an opaque data type.
*/
virtual CArchSocket newSocket(EAddressFamily, ESocketType) = 0;
//! Copy a socket object
/*!
Returns a reference to to socket referred to by \c s.
*/
virtual CArchSocket copySocket(CArchSocket s) = 0;
//! Release a socket reference
/*!
Deletes the given socket object. This does not destroy the socket
the object referred to until there are no remaining references for
the socket.
*/
virtual void closeSocket(CArchSocket s) = 0;
//! Close socket for further reads
/*!
Calling this disallows future reads on socket \c s.
*/
virtual void closeSocketForRead(CArchSocket s) = 0;
//! Close socket for further writes
/*!
Calling this disallows future writes on socket \c s.
*/
virtual void closeSocketForWrite(CArchSocket s) = 0;
//! Bind socket to address
/*!
Binds socket \c s to the address \c addr.
*/
virtual void bindSocket(CArchSocket s, CArchNetAddress addr) = 0;
//! Listen for connections on socket
/*!
Causes the socket \c s to begin listening for incoming connections.
*/
virtual void listenOnSocket(CArchSocket s) = 0;
//! Accept connection on socket
/*!
Accepts a connection on socket \c s, returning a new socket for the
connection and filling in \c addr with the address of the remote
end. \c addr may be NULL if the remote address isn't required.
The original socket \c s is unaffected and remains in the listening
state. The new socket shares most of the properties of \c s except
it's not in the listening state, it's connected, and is not
non-blocking even is \c s is.
This call blocks if \c s is not non-blocking and there are no
pending connection requests.
(Cancellation point)
*/
virtual CArchSocket acceptSocket(CArchSocket s, CArchNetAddress* addr) = 0;
//! Connect socket
/*!
Connects the socket \c s to the remote address \c addr. This call
blocks if \c s is not non-blocking. If \c s is non-blocking then
the client can \c poll() for writability to detect a connection.
(Cancellation point)
*/
virtual void connectSocket(CArchSocket s, CArchNetAddress addr) = 0;
//! Check socket state
/*!
Tests the state of \c num sockets for readability and/or writability.
Waits up to \c timeout seconds for some socket to become readable
and/or writable (or indefinitely if \c timeout < 0). Returns the
number of sockets that were readable (if readability was being
queried) or writable (if writablility was being queried) and sets
the \c m_revents members of the entries. \c kPOLLERR and \c kPOLLNVAL
are set in \c m_revents as appropriate. If a socket indicates
\c kPOLLERR then \c throwErrorOnSocket() can be used to determine
the type of error.
(Cancellation point)
*/
virtual int pollSocket(CPollEntry[], int num, double timeout) = 0;
//! Read data from socket
/*!
Read up to \c len bytes from socket \c s in \c buf and return the
number of bytes read. The number of bytes can be less than \c len
if not enough data is available. Returns 0 if the remote end has
disconnected and there is no more queued received data. Blocks if
the socket is not non-blocking and there is no queued received data.
If non-blocking and there is no queued received data then throws
XArchNetworkWouldBlock.
(Cancellation point)
*/
virtual size_t readSocket(CArchSocket s, void* buf, size_t len) = 0;
//! Write data from socket
/*!
Write up to \c len bytes to socket \c s from \c buf and return the
number of bytes written. The number of bytes can be less than
\c len if the remote end disconnected or the socket is non-blocking
and the internal buffers are full. If non-blocking and the internal
buffers are full before any data is written then throws
XArchNetworkWouldBlock.
(Cancellation point)
*/
virtual size_t writeSocket(CArchSocket s,
const void* buf, size_t len) = 0;
//! Check error on socket
/*!
If the socket \c s is in an error state then throws an appropriate
XArchNetwork exception.
*/
virtual void throwErrorOnSocket(CArchSocket s) = 0;
//! Set socket to (non-)blocking operation
/*!
Set socket to block or not block on accept, connect, poll, read and
write (i.e. calls that may take an arbitrary amount of time).
Returns the previous state.
*/
virtual bool setBlockingOnSocket(CArchSocket, bool blocking) = 0;
//! Turn Nagle algorithm on or off on socket
/*!
Set socket to send messages immediately (true) or to collect small
messages into one packet (false). Returns the previous state.
*/
virtual bool setNoDelayOnSocket(CArchSocket, bool noDelay) = 0;
//! Return local host's name
virtual std::string getHostName() = 0;
//! Create an "any" network address
virtual CArchNetAddress newAnyAddr(EAddressFamily) = 0;
//! Copy a network address
virtual CArchNetAddress copyAddr(CArchNetAddress) = 0;
//! Convert a name to a network address
virtual CArchNetAddress nameToAddr(const std::string&) = 0;
//! Destroy a network address
virtual void closeAddr(CArchNetAddress) = 0;
//! Convert an address to a host name
virtual std::string addrToName(CArchNetAddress) = 0;
//! Convert an address to a string
virtual std::string addrToString(CArchNetAddress) = 0;
//! Get an address's family
virtual EAddressFamily getAddrFamily(CArchNetAddress) = 0;
//! Set the port of an address
virtual void setAddrPort(CArchNetAddress, int port) = 0;
//! Get the port of an address
virtual int getAddrPort(CArchNetAddress) = 0;
//! Test for the "any" address
/*!
Returns true if \c addr is the "any" address. \c newAnyAddr()
returns an "any" address.
*/
virtual bool isAnyAddr(CArchNetAddress addr) = 0;
//@}
};
#endif